Removable leg walker

Iglesias , et al. December 15, 2

Patent Grant 10863791

U.S. patent number 10,863,791 [Application Number 13/441,552] was granted by the patent office on 2020-12-15 for removable leg walker. This patent grant is currently assigned to Ovation Medical. The grantee listed for this patent is Tracy E. Grim, Joseph Michael Iglesias. Invention is credited to Tracy E. Grim, Joseph Michael Iglesias.


United States Patent 10,863,791
Iglesias ,   et al. December 15, 2020

Removable leg walker

Abstract

An orthopedic walking boot for a user includes an outer sole having a substantially continuously curved lateral profile bottom walking surface, wherein a radius of curvature of the lateral walking surface varies between 10 mm and infinity, and an upper portion arranged with the outer sole to support a lower portion of the user's leg.


Inventors: Iglesias; Joseph Michael (Agoura Hills, CA), Grim; Tracy E. (Agoura Hills, CA)
Applicant:
Name City State Country Type

Iglesias; Joseph Michael
Grim; Tracy E.

Agoura Hills
Agoura Hills

CA
CA

US
US
Assignee: Ovation Medical (Agoura Hills, CA)
Family ID: 1000005241895
Appl. No.: 13/441,552
Filed: April 6, 2012

Prior Publication Data

Document Identifier Publication Date
US 20120255204 A1 Oct 11, 2012

Related U.S. Patent Documents

Application Number Filing Date Patent Number Issue Date
61472946 Apr 7, 2011

Current U.S. Class: 1/1
Current CPC Class: A43B 13/145 (20130101); A43B 13/143 (20130101)
Current International Class: A43B 13/14 (20060101)
Field of Search: ;36/140,155,110,103 ;602/23,61,65

References Cited [Referenced By]

U.S. Patent Documents
143537 October 1873 Silberschmidt
1472415 October 1923 Haggerty
2643468 June 1953 Gottschalk
2959169 November 1960 Bless
3464126 September 1969 Sarkissian
3504668 April 1970 Boudon
3661151 May 1972 Schoenbrun et al.
3665619 May 1972 Gray
3792537 February 1974 Plank et al.
3805773 April 1974 Sichau
3814088 June 1974 Raymond
3955565 May 1976 Johnson
3976059 August 1976 Lonardo
4005704 February 1977 Stohr et al.
4053995 October 1977 Shein
4057056 November 1977 Payton
4094312 June 1978 Whyte
4100686 July 1978 Sgarlato et al.
4100918 July 1978 Glancy
4184273 January 1980 Boyer et al.
4188735 February 1980 Hahn
4215491 August 1980 Giannetti
4217706 August 1980 Vartanian
4265033 May 1981 Pois
4268931 May 1981 Salomon
4393866 July 1983 Finnieston
4446856 May 1984 Jordan
4454871 June 1984 Mann et al.
4494536 January 1985 Latenser
4497070 February 1985 Cho
4505269 March 1985 Davies et al.
4510927 April 1985 Peters
4550721 November 1985 Michel
4556054 December 1985 Paulseth
4559934 December 1985 Philipp
4567678 February 1986 Morgan et al.
4572169 February 1986 Mauldin et al.
4587962 May 1986 Greene et al.
4590932 May 1986 Wilkerson
4624247 November 1986 Ford
4628945 December 1986 Johnson, Jr.
4665904 May 1987 Lerman
4771768 September 1988 Crispin
4805601 February 1989 Eischen, Sr.
4825856 May 1989 Nelson
4844094 July 1989 Grim
4862900 September 1989 Hefele
4872273 October 1989 Smeed
4879822 November 1989 Hayes
4919118 April 1990 Morris
4941271 July 1990 Lakic
4947838 August 1990 Giannetti
4964402 October 1990 Grim et al.
4974583 December 1990 Freitas
4982733 January 1991 Broadhurst et al.
4989349 February 1991 Ellis, III
4999932 March 1991 Grim
5020523 June 1991 Bodine
5078128 January 1992 Grim et al.
5086761 February 1992 Ingram
5088478 February 1992 Grim
5088479 February 1992 Detoro
5088481 February 1992 Darby
5092321 March 1992 Spademan
5125400 June 1992 Johnson, Jr.
5154695 October 1992 Farris et al.
5176623 January 1993 Stetman et al.
5197942 March 1993 Brady
5213564 May 1993 Johnson, Jr. et al.
5219324 June 1993 Hall
5226245 July 1993 Lamont
5226875 July 1993 Johnson
5233767 August 1993 Kramer
5242379 September 1993 Harris et al.
5277695 January 1994 Johnson, Jr. et al.
RE34661 July 1994 Grim
5329705 July 1994 Grim et al.
5330419 July 1994 Toronto
5334135 August 1994 Grim et al.
5352189 October 1994 Schumann et al.
5353525 October 1994 Grim
5367789 November 1994 Lamont
5368551 November 1994 Zuckerman
5370133 December 1994 Darby et al.
5370604 December 1994 Bernardoni
5378223 January 1995 Grim et al.
5383290 January 1995 Grim
5384970 January 1995 Melton
5392534 February 1995 Grim
5399152 March 1995 Habermeyer et al.
5399155 March 1995 Strassburg et al.
5407421 April 1995 Goldsmith
5425701 June 1995 Oster et al.
5426872 June 1995 Hayes
5429588 July 1995 Young et al.
5441015 August 1995 Farley
5445602 August 1995 Grim et al.
5460599 October 1995 Davis et al.
5464385 November 1995 Grim
5483757 January 1996 Frykberg
5496263 March 1996 Fuller, II et al.
5503622 April 1996 Wehr
5507720 April 1996 Lampropoulos
5526586 June 1996 Foscaro
5527269 June 1996 Reithofer
5551950 September 1996 Oppen
5554104 September 1996 Grim
5571077 November 1996 Klearman et al.
5577998 November 1996 Johnson, Jr. et al.
5582579 December 1996 Chism et al.
5609570 March 1997 Lamont
5617650 April 1997 Grim
5620411 April 1997 Schumann et al.
5632723 May 1997 Grim
5641322 June 1997 Silver et al.
5675839 October 1997 Gordon et al.
5720715 February 1998 Eriksson
5761834 June 1998 Grim et al.
5762622 June 1998 Lamont
5772619 June 1998 Corbett
5776090 July 1998 Bergmann et al.
5799659 September 1998 Stano
5823981 October 1998 Grim et al.
5827210 October 1998 Antar et al.
5827211 October 1998 Sellinger
5833639 November 1998 Nune et al.
5836902 November 1998 Gray
5853381 December 1998 Stevenson et al.
5857987 January 1999 Habermeyer
5865166 February 1999 Fitzpatrick et al.
5868690 February 1999 Eischen, Sr.
5887591 March 1999 Powell et al.
5891073 April 1999 Deirmendjian et al.
5897515 April 1999 Willner et al.
5897520 April 1999 Gerig
5902259 May 1999 Wilkerson
5913841 June 1999 Lamont
5925010 July 1999 Caprio, Jr.
5951504 September 1999 Iglesias et al.
5954075 September 1999 Gilmour
5961477 October 1999 Turtzo
5971946 October 1999 Quinn et al.
5980475 November 1999 Gibbons
5993404 November 1999 Mc Niel
6019741 February 2000 Prieskorn
6021780 February 2000 Darby
6024712 February 2000 Iglesia et al.
6027468 February 2000 Pick
6044578 April 2000 Kelz
6056712 May 2000 Grim
6126625 October 2000 Lundberg
6146349 November 2000 Rothschild et al.
6154983 December 2000 Austin
6155998 December 2000 Gilmour
6189172 February 2001 Baek
6228044 May 2001 Jensen et al.
6247250 June 2001 Hauser
6267742 July 2001 Krivosha et al.
6269554 August 2001 Silvestrini et al.
6277087 August 2001 Hess et al.
6282816 September 2001 Rosendahl
6282818 September 2001 Lu
6334854 January 2002 Davis
6350246 February 2002 DeToro
6361514 March 2002 Brown et al.
6361515 March 2002 Gilmour
6374516 April 2002 Bonaventure et al.
6406450 June 2002 Kowalczyk et al.
6409695 June 2002 Connelly
6432073 August 2002 Prior et al.
6491654 December 2002 Lamont
D473654 April 2003 Iglesias et al.
6558339 May 2003 Graham
6572571 June 2003 Lowe
6648843 November 2003 Marciano et al.
6656145 December 2003 Morton
6682497 January 2004 Jensen et al.
6699209 March 2004 Turtzo
6711834 March 2004 Kita
6722060 April 2004 Okajima
6755798 June 2004 McCarthy et al.
6793638 September 2004 DeToro et al.
6796058 September 2004 Potchatko
D500855 January 2005 Pick et al.
6866043 March 2005 Davis
6923780 August 2005 Price et al.
6945946 September 2005 Rooney
6945947 September 2005 Ingimundarson et al.
6955654 October 2005 Gilmour
6976972 December 2005 Bradshaw
6979287 December 2005 Elbaz et al.
6991613 January 2006 Sensabaugh
7018351 March 2006 Iglesias et al.
7018352 March 2006 Pressman et al.
D519211 April 2006 Doty et al.
7077818 July 2006 Ingimundarson et al.
7163518 January 2007 Roche et al.
7163519 January 2007 Price et al.
7182743 February 2007 Slautterback et al.
D541085 April 2007 Marsilio
7288076 October 2007 Grim et al.
7291181 November 2007 Lyons et al.
7294114 November 2007 Clement et al.
7303538 December 2007 Grim et al.
7311686 December 2007 Iglesias et al.
7354411 April 2008 Perry et al.
7384584 June 2008 Jerome et al.
7418755 September 2008 Bledsoe et al.
7475501 January 2009 DeToro et al.
7563238 July 2009 Breashears
7569022 August 2009 Morinaka
7585285 September 2009 Pone et al.
7597674 October 2009 Hu et al.
7666157 February 2010 Win
D616556 May 2010 Hu
7727173 June 2010 Rooney
7727174 June 2010 Chang et al.
7743532 June 2010 Bledsoe et al.
D619726 July 2010 Win
7758529 July 2010 Jensen et al.
7867182 January 2011 Iglesias et al.
D634438 March 2011 Hu
7896826 March 2011 Hu et al.
7918813 April 2011 Drake et al.
7922677 April 2011 Daiju
D640792 June 2011 Anderson et al.
D641084 July 2011 Anderson et al.
D642695 August 2011 Anderson et al.
8002724 August 2011 Hu et al.
D645153 September 2011 Anderson et al.
8012112 September 2011 Barberio
D662598 June 2012 Anderson et al.
8226585 July 2012 Pick et al.
8251932 August 2012 Fout
8251936 August 2012 Fout et al.
2001/0027616 October 2001 Silvestrini et al.
2002/0062579 May 2002 Caeran
2002/0073578 June 2002 Ellis, III
2002/0128574 September 2002 Darby
2003/0196352 October 2003 Bledsoe et al.
2004/0015112 January 2004 Salutterback et al.
2004/0030275 February 2004 Morinaka
2005/0016020 January 2005 Ellis, III
2005/0131324 June 2005 Bledsoe
2005/0171461 August 2005 Pick
2005/0172517 August 2005 Bledsoe et al.
2005/0228332 October 2005 Bushby
2005/0240133 October 2005 Rooney
2005/0274046 December 2005 Schwartz
2006/0032093 February 2006 Vannini
2006/0048344 March 2006 Cavanagh et al.
2006/0084899 April 2006 Verkade et al.
2006/0189907 August 2006 Pick et al.
2006/0217649 September 2006 Rabe
2007/0010770 January 2007 Gildersleeve
2007/0107267 May 2007 Hodgson
2007/0191749 August 2007 Barberio
2007/0260164 November 2007 Chiodo et al.
2007/0276307 November 2007 Erenstone
2007/0293798 December 2007 Hu et al.
2008/0004558 January 2008 Outred et al.
2008/0060220 March 2008 Lyden
2008/0098626 May 2008 Wright
2008/0154166 June 2008 Beckwith et al.
2008/0294082 November 2008 Chang et al.
2008/0294083 November 2008 Chang et al.
2008/0302371 December 2008 Cohen et al.
2008/0319362 December 2008 Joseph
2009/0043234 February 2009 Bledsoe et al.
2009/0076425 March 2009 Schwartz
2009/0099495 April 2009 Campos et al.
2009/0133292 May 2009 Salvatelli et al.
2009/0192427 July 2009 Brown et al.
2009/0192428 July 2009 DeBoer et al.
2009/0199429 August 2009 Ellis
2009/0227927 September 2009 Frazer
2009/0227928 September 2009 Drake et al.
2009/0264803 October 2009 Darby, II et al.
2009/0287127 November 2009 Hu et al.
2009/0299246 December 2009 Pone et al.
2009/0306565 December 2009 Chan
2010/0010410 January 2010 Hu et al.
2010/0069807 March 2010 Cox
2010/0100018 April 2010 Fout
2010/0204631 August 2010 Rooney
2010/0234782 September 2010 Hu et al.
2010/0324461 December 2010 Darby
2011/0009791 January 2011 Hopmann
2011/0015555 January 2011 Anderson et al.
2011/0021963 January 2011 Graddon et al.
2011/0066095 March 2011 Price et al.
2011/0146032 June 2011 Hu et al.
2011/0196275 August 2011 Chang et al.
2011/0196276 August 2011 Kuhn
2011/0313336 December 2011 Chan
2012/0000092 January 2012 Ingvarsson et al.
2012/0010534 January 2012 Kubiak et al.
2012/0010535 January 2012 Kubiak et al.
2012/0035520 February 2012 Ingimundarson et al.
2012/0065564 March 2012 Hoffmeier
2012/0078148 March 2012 Hu et al.
2012/0116275 May 2012 Pochatko
2012/0137544 June 2012 Rosa et al.
2013/0066247 March 2013 Bird et al.
2013/0226059 August 2013 Morris
Foreign Patent Documents
201085714 Jul 2008 CN
201523712 Jul 2010 CN
2341658 Mar 1974 DE
3228753 Feb 1984 DE
3909922 Feb 1990 DE
0095396 Nov 1983 EP
1006960 Jan 2003 EP
2399811 Mar 1979 FR
2165229 Apr 2001 RU

Other References

International Preliminary Report on Patentability for International application No. PCT/US2012/032710 dated Oct. 17, 2013 from the International Bureau of WIPO. cited by applicant .
Notification of Transmittal of International Search report and the Written Opinion of the International Searching Authority, or the Declaration, International Search Report and Written Opinion in International Application No. PCT/US2012/032710. cited by applicant .
PCT Publication No. WO/87/03471, dated Jun. 18, 1987, regarding PCT Application No. PCT/US86/02670. cited by applicant .
Article from http://www.alimed.com regarding AliMed D2 Night Splint for Plantar Fasciitis. cited by applicant .
Aircast Incorporated Product Brochure, "SP-Walker, short pneumatic walking brace", Jan. 11, 2002. cited by applicant .
PCT Publication No. WO/2012/020251, dated Feb. 16, 2012, regarding PCT Application No. PCT/GB2011/051499. cited by applicant .
PCT Publication No. WO/2005/097014, dated Oct. 20, 2005, regarding PCT Application No. PCT/SE2005/000513. cited by applicant .
PCT Publication No. WO/2012/099989, dated Jul. 26, 2013, regarding PCT Application No. PCT/US2012/021763. cited by applicant .
PCT Publication No. WO/2012/001678, dated Jan. 5, 2012, regarding PCT Application No. PCT/IL2011/000487. cited by applicant .
Paul A. Dale, M.D. et al.; "A New Concept in Fracture Immobilization", Clinical Orthopaedics. Oct. 1993, vol. 295: 264-269. cited by applicant.

Primary Examiner: Lynch; Megan E
Attorney, Agent or Firm: Fulwider Patton LLP

Parent Case Text



CROSS-REFERENCE TO RELATED APPLICATION(S)

This application claims the benefit of U.S. Provisional Patent Application No. 61/472,946, entitled "Removable Leg Walker," filed on Apr. 7, 2011, which is expressly incorporated by reference herein in its entirety.
Claims



What is claimed is:

1. An orthopedic walking boot, comprising: an upper portion having left and right side walls terminating vertically at a lowermost left and right edges, respectively; an insole; and an outer sole having: a longitudinal continuous curvature along an entire length of a lower surface from a front to a back of the outer sole; and a transverse continuous curvature extending from a left uppermost edge to a right uppermost edge and defined by two dimensions A and B, where A is an entire length of the outer sole along a bottom surface in the transverse direction that is substantially flat and substantially parallel to a ground surface when the walking boot is upright, and B is a lateral distance between the left uppermost edge and the right uppermost edge, evaluated at every longitudinal position between a heel strike area and a toe area, said transverse continuous curvature characterized by a ratio of A:B is approximately 0.63.

2. An orthopedic walking boot, comprising: an upper portion having left and right side walls terminating vertically at a lowermost left and right edges, respectively; an insole; and an outer sole having: a longitudinal continuous curvature along an entire length of a lower surface from a front to a back of the outer sole; and a transverse continuous curvature extending from a left uppermost edge to a right uppermost edge and defined by two dimensions A and B, where A is an entire length of the outer sole along a bottom surface in the transverse direction that is substantially flat and substantially parallel to a ground surface when the walking boot is upright, and B is a lateral distance between the left uppermost edge and the right uppermost edge, evaluated at every longitudinal position between a heel strike area and a toe area, said transverse continuous curvature characterized by a ratio of A:B that is less than 0.63.
Description



BACKGROUND

It is common that people, especially active and/or frail people, experience a variety of lower leg and ankle injuries. To aid in the treatment of the injuries it is desirable to immobilize the injury, typically above and below the effected joint.

Physicians traditionally will place patients in a cast that will start at the toes and ends below the knee in what is called a short leg cast. Physicians have noticed that casts are hot, promote skin itching and will rub the leg when the swelling subsides.

An alternative to the short leg cast is a short leg walker that is made of rigid plastic frame lined with a soft padding to accommodate the leg comfortably. Many times the liner, or soft good, may house a series of air bladders that can be adjusted by the patient to improve the fit and help compress the swelling resulting in less pain and more stability. The walkers can be removed when directed to address skin issues, remove sutures or conduct passive range of motion (ROM) exercises. Circumferential casts do not offer the luxury of easy on/off.

Walkers are essentially rigid encasing envelopes for the leg that usually immobilize the foot and ankle at a neutral position (or 90 degrees). The patient can walk easiest if the ankle is frozen at 90 degrees. Otherwise the patient would be walking on the toes or on the heel. The sole is usually tapered from front to back in a rocker bottom fashion to initiate a smoother stride from front to back allowing heel strike, rocking forward then toe-off for a successful step. The sole taper may facilitate forward walking motion, but is not helpful in pivoting to turn.

As shown in FIGS. 1 and 2, a depiction of a prior art orthopedic walking boot 100 having a sole 110 with an edge 115 is shown tilted at an angle, such as may occur when a user wishes to pivot to turn, rather than walk in a straight line. The curvature of the sole 110 at either side includes an arcuate edge 115; however, the radius of curvature of the arcuate edge 115 may conventionally be so small that the contact surface of the sole with the ground at the arcuate edge 115 is too small to afford the user stability in the effort to turn or may even hinder the turn due to effectively balancing on an edge, e.g., like a skate blade. As shown in FIG. 2, a typical ratio of the dimension of a substantially flat portion 112 of the sole 110 having a lateral dimension A to a total lateral dimension B, including the two arcuate edges 115, may conventionally be on the order of 0.85 or greater, meaning that the sole is mostly or substantially flat over 85% of the surface of the sole that may make contact with a walking surface. A limited portion at the arcuate edges 115 having curvature upward toward an upper portion 120 of the boot 100 at the sides makes actual contact with the ground. In this configuration, the shape of the sole tends to resist the effort to pivot into the turn, adding stress and discomfort to the user's leg, which may adversely affect recuperation.

Conventional walker boots typically include a break in the curvature from the bottom surface laterally to the vertical sidewall, and lacks a continuously curved (i.e., rolled) edge. In addition, the sole has no provisions for traction on the sidewalls.

There is a need, therefore, to shape the sole of the orthopedic walker boot to improve the user experience, comfort and mobility.

SUMMARY

In an aspect of the disclosure, an orthopedic walking boot for a user includes an outer sole having a substantially continuously curved lateral profile bottom walking surface, wherein a radius of curvature of the lateral walking surface varies between 10 mm and infinity, and an upper portion arranged with the outer sole to support a leg of the user.

In another aspect of the disclosure, an orthopedic walking boot for a user includes an outer sole having a substantially continuously curved lateral profile bottom walking surface, a traction tread on substantially all of the curved bottom of the outer sole, and an upper portion arranged with the outer sole to support a leg of the user, wherein the sole profile curves substantially continuously to merge with the upper portion.

In a further aspect of the disclosure, an orthopedic walking boot for a user includes an outer sole having a bottom surface with a substantially continuously curved lateral profile and front-to-back rolling curvature, and an upper portion arranged with the outer sole to support a leg of the user.

In a still further aspect of the disclosure, an orthopedic walking boot for a user includes an outer sole comprising a primary material and one or more secondary materials, wherein the secondary materials have a greater shock absorbing characteristic than the primary material.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a cross-section view of a prior art orthopedic walking boot in contact with a surface.

FIG. 2 is a cross-section view of the boot of FIG. 1.

FIG. 3A is a cross-section of an orthopedic walking boot in an aspect of the disclosure.

FIG. 3B is a side view of a portion of the orthopedic walking boot of FIG. 3A.

FIG. 4 is a cross-section of the boot of FIG. 3A in partial contact with a surface.

DETAILED DESCRIPTION

Various aspects of the present invention will be described herein with reference to drawings that are schematic illustrations of idealized configurations of the present invention. As such, variations from the shapes of the illustrations as a result, for example, manufacturing techniques and/or tolerances, are to be expected. Thus, the various aspects of the present invention presented throughout this disclosure should not be construed as limited to the particular shapes of elements (e.g., regions, layers, sections, substrates, etc.) illustrated and described herein but are to include deviations in shapes that result, for example, from manufacturing. Thus, the elements illustrated in the drawings are schematic in nature and their shapes are not intended to illustrate the precise shape of an element and are not intended to limit the scope of the present invention, unless intentionally described as such.

It will be understood that when an element such as a region, layer, section, substrate, or the like, is referred to as being "on" another element, it can be directly on the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present. It will be further understood that when an element such as a structure is referred to as being coupled to another element, it can be directly connected to the other element or intervening elements may also be present. Similarly, two elements may be mechanically coupled by being either directly physically connected, or intervening connecting elements may be present. It will be further understood that when an element is referred to as being "formed" on another element, it can be deposited, attached, connected, coupled, or otherwise prepared or fabricated on the other element or an intervening element.

Furthermore, relative terms, such as "lower" or "bottom" and "upper" or "top," may be used herein to describe one element's relationship to another element as illustrated in the drawings. It will be understood that relative terms are intended to encompass different orientations of an apparatus in addition to the orientation depicted in the drawings. By way of example, if a walker in the drawings is turned over, elements described as being on the "lower" side of other elements would then be oriented on the "upper" side of the other elements. The term "lower", can therefore, encompass both an orientation of "lower" and "upper," depending of the particular orientation of the walker. Similarly, if a walker in the drawing is turned over, elements described as "below" or "beneath" other elements would then be oriented "above" the other elements. The terms "below" or "beneath" can, therefore, encompass both an orientation of above and below.

Unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and this disclosure.

It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. The term "and/or" includes any and all combinations of one or more of the associated listed items.

The detailed description set forth below in connection with the appended drawings is intended as a description of various aspects of the present invention and is not intended to represent all aspects in which the present invention may be practiced. The detailed description includes specific details for the purpose of providing a thorough understanding of the present invention. However, it will be apparent to those skilled in the art that the present invention may be practiced without these specific details. In some instances, well-known structures and components are shown in block diagram form in order to avoid obscuring the concepts of the present invention.

Various aspects of the present invention may provide an improved short leg walker that may be fitted easily around the leg to provide support and allow ambulation for the affected limb.

FIG. 3A is a cross-section of an orthopedic walking boot 300 for a lower portion of a user's leg, i.e., from the knee down. As shown in FIG. 3A, a full length outer sole 310 may be rounded at the sides with an arcuate edge 315 where it comes in contact with the walking surface so that the surface of the boot in contact with the ground may transition more smoothly at the edges than may be encountered in a conventional orthopedic walking boot 100. The rounded or arcuate edge 315 disclosed herein allows for the patient to lean more from side to side in the walker to maneuver more easily. With this feature, pivotal rotation of the booted foot is made easier to execute when the user wishes to turn. All portions of the outer sole 310, including the arcuate edge 315, may be fully capable of bearing the weight of the user. Traditionally, outer soles are either a die cut piece of rubber, polyurethane, thermoplastic or like material that is attached permanently to a frame of the walker. These outer soles are usually sloped in the front-to-back direction, as shown in FIG. 3B, for a front-to-back, or longitudinal, rocking action. These outer soles are usually rounded in the front-to-back direction, but not arcuate or rounded in the lateral aspect of the outer sole 310, as shown in FIG. 3A. Because the conventional boot 100 of FIGS. 1 and 2 may usually have a hard angled edge on the lateral sides of the outer sole, the patient, in an effort to assume a natural gait, will actually ride along a portion of the edge, like an ice skate blade, during part of the gait cycle. The problem arises when the patient is on uneven ground, wet surfaces or otherwise unstable surfaces. Because the patient is actually balancing on an edge, it may be more likely that edge becomes cause for the walker to slip, providing a dangerous situation for an already compromised, injured, sometimes weakened, or aged patient.

Because the foot and ankle are set at a specified angle, which may be variable, but typically may be a fixed 90 degree angle, the injured patient may normally adjust his/her gait to not only the frozen angle of the ankle, but to accommodate simultaneously for an angular relationship of the hip to the knee. This causes gross adjustments to the gait/walking patterns, including when the patient pivots to execute a turn. The curved or rounded edge--the arcuate edge 315--will allow for the patient to intuitively adapt to a more normal 3-dimensional gait pattern by being able to roll or use the edge 315 of the walker by leaning the body more side-to-side, as in a healthy walking gait, thus accommodating for the injury as well as the ankle being frozen in a 90 degree angle.

The patient may be more comfortable from the first strides when attempting ambulation in the walker 300. The walker may be beneficially used in a very wide range of injuries and a very wide spectral profile of patient disabilities, e.g., age, physical fitness and/or disabilities, and injury types. For example, a teenage athlete with a broken leg has a very different gate requirement and pain tolerance than an elderly, overweight, health compromised senior citizen who may also suffer other multiple chronic conditions (e.g., arthritis, hip and knee joint degradation, etc.) that can have an additional dramatic effect on gait requirements.

As the injuries progress in healing, the gait pattern may become more aggressive as the pain is eliminated when using the walker 300. Because the patient may be more comfortable at all stages of recuperation, he/she may want to adapt a more natural gait, e.g., walking, twisting, turning quickly, etc. Conscious thought is rarely given to the process of walking in our normal lives. However, people will constantly pivot around a chair, twist when exiting a car, and pivot during normal walking activity when maneuvering around or away from objects and corners, i.e., negotiating normal environments such as the household or work, changing walking surfaces, such as from carpet to hard surfaces, etc. A conventional walker with a sharp cornered arcuate side edge tends to force a wearer to walk in a straight line along that edge. A walker with a more rounded curved side edge allows for less restricted freedom to maneuver more easily. An outer sole with a relatively sharp cornered edge may result in the patient teetering and occasionally slipping or sliding on the edge. The curved surface disclosed herein allows for an easier pivot, roll, turn twist, etc., and improved contact traction on substantially any condition of the walking surface, e.g., snow, ice, rain, oily/slippery surfaces, gravel, rocks, stairs, curbs, all the surfaces we may consistently maneuver on in normal ambulatory activity, to which barely any thought is normally given.

Referring to FIG. 4, the arcuate nature of the walker outer sole 310 may have a lateral profile that is continuous across the width of the entire outer sole 310 and terminate without a substantial step-off between the lateral portion 312 and the arcuate edge 315, thereby being congruent with substantially continuous curvature over the entirety of the outer sole lateral surface profile from the heel striking area to the toe. That is, a lateral portion 312 of lateral dimension A of the sole 315 may have a radius of curvature in the lateral plane that is large enough so as to appear that the lateral portion 312 is approximately or substantially flat. The arcuate edges 315 may have a radius of curvature in a smaller range which is, however still larger than for the arcuate edges 115 of the conventional walker sole 110.

A total dimension B, includes the lateral portion 312 plus the two arcuate edges 315. At the interface between the approximately or substantially flat lateral portion and each of the two arcuate edges 315 the radius of curvature changes to a smaller value, however the surface of the sole has a transition from one portion to the other, with no substantial discontinuous break in contour between the two parts (i.e., between the substantially flat or slightly curved lateral portion of dimension A and the arcuate edge 315) corresponding to a change in slope of the contour break of no more than 20 degrees. Thus, the step-off between the lateral portion 312 and the arcuate edge 315 is restricted to be equal or less than 20 degrees. For example, the radius of curvature may transition between approximately 10 mm in the region of the arcuate edge 315 to a larger value--up to infinity--in the lateral portion 312 of the outer sole 310 indicated by the dimensions A, provided there is no substantial cusp or discontinuity greater than 20 degrees of the surface smoothness from one portion to the other. More preferably, the radius of curvature in the region of the arcuate edge 315 may be approximately 30 cm. This may vary, for example, according to boot size.

A value of the radius of curvature of infinity in the lateral portion 312 indicates a flat portion of the outer sole 310. The radius of curvature in the lateral portion 312 may be in a first range of values from a minimum specified value up to infinity. The radius of curvature in the arcuate edge 315 may be in a second range of values from, for example, the minimum value specified for the lateral portion 312 down to a smaller specified value. The substantially continuous curvature over the entirety of the outer sole lateral surface profile determines that the lateral contour of the outer sole 310 changes smoothly from lateral portion 312 to arcuate edge 315, i.e., with no sharp edges greater than, for example, a 20 degree step-off

It may be understood that a tread pattern in the surface of the outer sole 310 may be considered as a perturbation of the surface of the outer sole 310, and is not considered in the definition of the radius of curvature.

In a conventional walker, the ratio A:B may be on the order of 1.gtoreq.A:B.gtoreq.0.85. Commonly, the ratio may be A:B.about.0.85. In the walker boot 300 the ratio A:B may be lower, e.g., on the order of 0.85>A:B.gtoreq.0. More preferably the ratio A:B may be A:B.about.0.63.

Another feature is a scalloping or curved recessing on the inside of the walker in the upper portion 320. Traditionally the insides of the walker upper portion 120 are "flat," i.e., lack a contoured surface to accommodate the ankle. The inside of the upper portion 120 of a conventional walker 100 may be interfitted into the flat inside walls in order to provide a secure fitting. Various embodiments of the walker 300 disclosed herein may have a curved or recessed inner surface (not shown) of the upper portion 320 which accommodates the natural curvature of the ankle and foot. This provides a pre-relieved area or recess to accommodate the boney prominences of the foot and ankle and also accommodates swelling patterns that are predictably present with injuries to the area.

In yet another embodiment of the disclosure, the upper portion 320, may be flared outwardly (not shown) to conform to a shape of the wearer's calf, which has an increasing cross-section of the leg with distance from the ankle.

In still another aspect of the disclosure, the outer sole may include a plurality of materials such as, for example, a primary material for structural strength, and one or more secondary materials configured to provide a greater degree of shock absorption to reduce impact stress on the user's foot, particularly from the heal to the mid-foot. The primary and secondary materials may be structurally distinct and separate over the extent of the outer sole to provide different impact characteristics according to location, or alternatively a mixture in various proportions of the primary and secondary materials may provide differing degrees of shock absorption at different locations of the sole of the foot. The mixture may be achieved by controlled additive mixing of secondary materials.

In still another aspect of the disclosure, shock attenuation to the user's foot may be achieved by including the primary and secondary materials as described above in an insole of the walker.

It may be readily appreciated that the walker boot as described above may simultaneously solve a number of deficiencies found in the prior art. These deficiencies in the prior art may include, but are not limited to, an inability to accommodate: a user's supination or pronation tendencies, changes in mobility during recovery, the need for postural accommodations including the hip, knee, back and shoulders, and desired freedom of movement on various terrains, such as, but not limited to, stairs and inclines.

The claims are not intended to be limited to the various aspects of this disclosure, but are to be accorded the full scope consistent with the language of the claims. It is noted that specific illustrative embodiments of the invention have been shown in the drawings and described in detail hereinabove. It is to be understood that various changes and modifications may be made without departing from the spirit and scope of the invention. All structural and functional equivalents to the elements of the various aspects described throughout this disclosure that are known or later come to be known to those of ordinary skill in the art are expressly incorporated herein by reference and are intended to be encompassed by the claims. Moreover, nothing disclosed herein is intended to be dedicated to the public regardless of whether such disclosure is explicitly recited in the claims. No claim element is to be construed under the provisions of 35 U.S.C. .sctn. 112, sixth paragraph, unless the element is expressly recited using the phrase "means for" or, in the case of a method claim, the element is recited using the phrase "step for."

* * * * *

References

Patent Diagrams and Documents

D00000


D00001


D00002


D00003


D00004


XML


uspto.report is an independent third-party trademark research tool that is not affiliated, endorsed, or sponsored by the United States Patent and Trademark Office (USPTO) or any other governmental organization. The information provided by uspto.report is based on publicly available data at the time of writing and is intended for informational purposes only.

While we strive to provide accurate and up-to-date information, we do not guarantee the accuracy, completeness, reliability, or suitability of the information displayed on this site. The use of this site is at your own risk. Any reliance you place on such information is therefore strictly at your own risk.

All official trademark data, including owner information, should be verified by visiting the official USPTO website at www.uspto.gov. This site is not intended to replace professional legal advice and should not be used as a substitute for consulting with a legal professional who is knowledgeable about trademark law.

© 2024 USPTO.report | Privacy Policy | Resources | RSS Feed of Trademarks | Trademark Filings Twitter Feed